Abstract
Interaction between amphiphiles and water molecules in micelle or bilayer structure has been investigated using aqueous colloids of various amphiphiles through the rheological data and the spin-lattice relaxation timeT 1 of the proton of water molecule.T 1 of the water proton has been measured by the inversion recovery method and determined as a single exponential relaxation process.
The chemical shift of the water proton is almost independent of the amphiphilic concentration; however, it shifts toward a higher magnetic field with increasing temperature in a way similar to that in pure water and in the amphiphilic aqueous systems. These facts mean that there is no significant difference in the magnetic field environment of the water protons in these systems.
The water molecule is not necessarily bound in the fully developed micelle or bilayer (rod-like or lamella) structure which induces the high viscosity or high rigidity of the colloidal system. On the other hand, the water molecule is bound in the micelle colloids of amphoteric amphiphiles or amphiphiles whose molecular assembly creates a relatively strong electrostatic field. The activation entropy of the bound water is negative and this suggests that water molecules assume some ordered structure in the bound state.
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Matsumoto, T., Ito, D. & Kohno, H. Interaction between amphiphiles and water molecules in concentrated bilayer aqueous colloids. Colloid & Polymer Sci 267, 946–952 (1989). https://doi.org/10.1007/BF01410345
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DOI: https://doi.org/10.1007/BF01410345